With the rapid development of China's economic level and the continuous improvement of energy consumption level, China's attention to energy production and energy has gradually increased. This paper aims to study the application of MES systems based on industrial ecology in energy measurement management. From the direction of ecology of sustainable development theory and the theory of industrial ecology, this paper proposes the enterprise ecosystem model not only for the specific enterprise unit, but also from the perspective of industrial system. This paper systematically studies the efficient energy management of enterprises, through the construction technology of MES platform and various coding scheMES, designs a set of energy management system based on MES, and applies the system to the enterprise energy measurement. This paper adopts the basic design concept of three-layer architecture in the overall design process, which divides the whole system into different functional units and sub-class functions, and finally ensures the correct use and good operation of the system. The experiment has proved that the work efficiency of this system has been improved to 100%. Compared with the traditional energy metering management system, the data processing speed of this paper is increased by about 5 tiMES.

Xiang Li. MES System Based on Industrial Ecology in Energy Measurement Management. Academic Journal of Energy (2022), Vol. 3, Issue 3: 1-9. https://doi.org/10.38007/RE.2022.030301.

[1]  Jambou M ,  Torre A ,  Dermine-Brullot S , et al.Inter-firm cooperation and local industrial ecology processes: evidence from three French case studies.The Annals of Regional Science, 2022, 68(2):331-358. https://doi.org/10.1007/s00168-021-01088-5

[2]  Gazya G V ,  Eskov V M .Uncertainty of the first type in industrial ecology.IOP Conference Series: Earth and Environmental Science, 2021, 839(4):042072 (6pp).

[3]  Allen D T ,  Chen J ,  Licence P , et al.Expectations for Manuscripts on Industrial Ecology in ACS Sustainable Chemistry & Engineering.ACS Sustainable Chemistry & Engineering, 2020, 8(26):9599-9600.

[4]  Pilloud F ,  Pouransari N ,  Renard L , et al.Bromine Recycling in the Chemical Industry - An Example of Circular Economy.Chimia, 2019, 73(9):737-742. https://doi.org/10.2533/chimia.2019.737

[5]  Belaud J P ,  Adoue C ,  Vialle C , et al.A circular economy and industrial ecology toolbox for developing an eco-industrial park: perspectives from French policy.Clean Technologies and Environmental Policy, 2019, 21(5):967-985.

[6]  Thabet R H ,  Fouad M K ,  Sherbiny S , et al.Zero-Waste Approach: Assessment of Aluminum-Based Waste as a Photocatalyst for Industrial Wastewater Treatment Ecology.International Journal of Environmental Research, 2022, 16(3):1-19. https://doi.org/10.1007/s41742-022-00414-9

[7]  Abramov V O ,  Abramova A V ,  Bayazitov V M , et al. Presowing Treatment Of Seeds Using Ultrasound: Development Of Echnology And Industrial Equipment. Journal of Environmental Protection and Ecology, 2019, 20(1):414-423.

[8]  Gritskevich M S ,  Logachev K I ,  Averkova O A , et al.ecology numerical analysis of the dust-air current near a spherical suction unit screened by a circular swirling jet.part 2. dynamics of dust particles 1.Refractories and Industrial Ceramics, 2019, 59(5):569–572.

[9]  Siqueira M U ,  Contin B ,  Fernandes P , et al.Brazilian Agro-industrial Wastes as Potential Textile and Other Raw Materials: a Sustainable Approach.Materials Circular Economy, 2022, 4(1):1-21. https://doi.org/10.1007/s42824-021-00050-2

[10]  Kim J ,  Lee S J ,  Lee G H , et al.Ammonia flow analysis in the doMEStic fertilizer industry of South Korea.Journal of Material Cycles and Waste Management, 2022, 24(2):517-527. https://doi.org/10.1007/s10163-021-01338-w

[11]  Cuppen E ,  Nikolic I ,  Kwakkel J , et al.Participatory multi-modelling as the creation of a boundary object ecology: the case of future energy infrastructures in the Rotterdam Port Industrial Cluster.Sustainability Science, 2021, 16(3):901-918.

[12]  Chaitanyasreerama P ,  Kamat V N .Curbing Harmonics using Apparent Energy Metering.Electrical India, 2019, 59(1):34-36,38,40,42,44,46.

[13]  Broughton J B ,  Nyer P U ,  Ybarra C E .The Economics of Battery Storage for Residential Solar Customers in Southern California.American Journal of Industrial and Business Management, 2021, 11(8):9. https://doi.org/10.4236/ajibm.2021.118056

[14]  Kabalci E ,  Kabalci Y .[Energy Systems in Electrical Engineering] Smart Grids and Their Communication Systems || Robust Advanced Metering Infrastructures and Networks for Smart Grid.2019, 10.1007/978-981-13-1768-2(Chapter 16):551-605. https://doi.org/10.1007/978-981-13-1768-2_16

[15]  Ouammi A .Model predictive control for optimal energy management of connected cluster of microgrids with net zero energy multi-greenhouses.Energy, 2021, 234(2):121274. https://doi.org/10.1016/j.energy.2021.121274

[16]  Olivares-Rojas J C ,  Reyes-Archundia E ,  Gutierrez-Gnecchi J A , et al.A Novel Multitier Blockchain Architecture to Protect Data in Smart Metering Systems.IEEE Transactions on Engineering Management, 2019, PP(99):1-14.

[17]  Karthick T ,  Charles R S ,  Jeslin D , et al.Design of IoT based smart compact energy meter for monitoring and controlling the usage of energy and power quality issues with demand side management for a commercial building.Sustainable Energy Grids and Networks, 2021, 26(2):100454. https://doi.org/10.1016/j.segan.2021.100454

[18]  Zhidchenko T V ,  Seredina M N ,  Udintsova N M , et al.Interface system of a software package for electricity metering.Journal of Physics: Conference Series, 2021, 2032(1):012087-. https://doi.org/10.1088/1742-6596/2032/1/012087